Corn-planter.



E. M. HEYLMAN.'

001m P'LAHTBR, APPLIBATIoN rum) M120, 1909. Patented Deal, 1914,

4: SHEETS-SHEET 1.

E. M. HEYLMAN. I

CORN PLANTER.

APPLICATION FILED JAN. 20, 1909.

Patented Dec. 1, 1914.

Ill/0 ,lllilillf. ems? mowesso m HEYLMAIlI, 01 .mimsvimsi, i 'zsce ism, essioiio e Ti, ems .iemisvrcw MACHINE comesiw, e"- .izi ssvihm, WISjGQNSIN, cczieoeliieioii.

GQRZWPLAHTEE.

s mos-e.

lo'iciiieci Dec. i.

Application filed ima so, me. eerie: Ho. l?3l,339.

To all wiwmit may concern Be it lmcwn that L ED'WARD hicneymgmg isefullmpi ovcments in Corn-Planters, of

which the following is'c specificilion The invention relates lo seeci planters she t are adopted for both hill and drill leotm In such planters-for check-row oi hillplcn mg, fl e seed mechanism is operated to sea cmnulate. ighe seed, usually one at a time, as

the ihiziehine travels between rows and the accin ulet cgi seed is deposited at the hills by mcciis Valve mechanism operated; by. the check-304v wire. In drilling, the check-row is 'iqhrotivi out of operation and theseer mechehism-ectsto deposit the seed in the filllfilfl', usually one zit a, time. It is desirable to sr'y'the number of kernels (leositecl in each hill and to vary the distances iZ-etween ifhe deposited seed in drill electing; in eccol'deiice with the different soil conditions. This is usually efiectecl by having a number seed-plates in which the seed cells are differently arranged, but this method is objectionable hecaiise of the time and labor necessary to change the seed-plates, and lee-- cause 1%. cannot be used practically to vary 7 the pleiilgm in accordance with the SOil (301% ditions at ifi'ei'eni parts of she some field. The object of the present invention is to provide variable drive mechanism for the seed-plates which can be easily and. readily set or edjuste to control the amount of seed planted, either iii hill o'r drill planiin lilost corn plm'iters. as now manufactured;

are provided with a clutch by which the seed-plates ere intermittently operated in check-row plsnhng. These clutch mechanisms frequently get out of order and are the cause of much annoyance and they cannot be conveniently inclosed within a. protecting casii g, end a further object of the invention is go preside ii variable (lrive mechanism for the seed-plates which will obviate i-he necessity of employing s cluiich and which can be entirely ihclosed within a proteciging casing.

With these objects in Vlfifi', the invention consists in the featuies of improvement hereinafter set forth. illustrated in the accom pzinying di awings and more particularly defin efl infthe a pended claims.

lii t he Ebiatifiilgs, Figure l is a plan View partially in elevation and partially in verticol section oi one oi" the seed-delivery B11361]? c... cu sine; mg. 3 IS a plan View 01: a portion oi easel-delivery mechanism with the scedcan swung heel; upon its pivot; Fig. 3 is an ii verted plan, View of the retainer ring for the seed; plate; Fig. i is an enlcrgecl detail View with penis in section on the line M of Fig. 1; Fig. 5 is a. horizontal section on the line 5-5 of Fig. Mllig. is a view in elevation of one of ihe pinioos of. the drive mechanism; Fig". 6 is a detail "iew of a pot-.-

iiioz of counter shaft carried thereby; Ell s, 3 emlfi are.

views similar to Figs, 4 c2135; and illustrating a modification of the ii vecsi o Elie some of the plant/er is of usual form aiicl compiises sidebars 10 filial; are connect ell. cl their TQM ends by a. cross-our 11 and :uije'ceii't their forward emis by a crossher 12. Supporting and covering wheels 1.3 are fixed to hhe end of :1 Wheel axle 1- that: is journeled at on end in a boss 15 fixed lacone ofthe side-burs l0 and at its other end extends through a ,ear casing 16 which is secured to the othe i skis-her.

The front transverse frame which on This the seeding mechanisms. comprises ii'oiit and rear bars 17 and. 18 connectefi illl jliiilftll ends by cross pieces 19 and inieirhieiiicte their ends by transverse. lin-nclzets 20; The hi acl ets 20 are pivoted to the forward emh of the sidebars 10 of the main-frame so that the front frame and seeding mes-ha nisms carried thereby can he raised and low ered in {he usual manner to and from work-- ing position. The two seeding mechanisms are carried upon the front frame direcivly in. advance of the supporting and coveriiii wheels 1?). These meehcnis; s we alike coi each comprises a hoot 21 thcl is SBfillfivllilill position between hhe from and reel v and 18 of the front frame. .A supoo secured to the upper end of the book a bolis A pair of upw'crclly-pi"ojee lugs 24 on the for aid part of the e. 22 extend between 21 psi of lugs 25 on bottom of the seed-can or ,homier and cite connected thereto by a pivot. pin The bottom of the seed-can comp: a rim POE-- tion 27 and a co plate 28 that are I :eclzed lay arches 29. he body 30 i, n is secured co the Gillie}: poi eiou by holes 31 in. she usu" being held in position upon the boss by a screw-bolt 34 and a washer 35.

shouldered boss. 32 upon which a rotatable diiveplatc 33 is mounted, the drive-plate The seedplate or ring 36 fits within the lower portion' of the rim 27 and is provid d at its inner edge with notclies'arranged to be engaged by lugs 37 upon the drive-plate 33. The seed-plate is provided at its outer edge with cells 38, each of which is preferably adapted to receive a singlekernel of corn in ed gewi so position. The outer sides of the cells are closed by the vertical, depending portion of the rim 27 of the hopper bottom. Thelower ends of the cells are closed and the seedplate is reinovablv held in position by a retainer ring 39, shown in'detail in Fig. 3. This retainer ring is provided at one side with a projecting hook 40 that is adapted to engage the pivot pin 26 between the lugs 24. At its opposite side, the ring is provided with :1 lug 41 that engages a spring catch 42 iixed to the hopper bottom. In the normal, operative position of the partsfafdow wardly depending boss'43 on the ring 39 rests upon an upwardly projecting) boss 44 upon the rear portion of the support 22 and the hopper is held in this positioii by an eye-bolt 45 pivoted to the support and arranged to engage a slotted lug 46 at the rear side of the hopper bottom. The bolt is provided with a wing-nut 47 that engages the lug 46, as. shown in Fig. 2. A discharge opening is formed through the abutting bosses 43 and 44: through which the seed is delivered, one at a time, by the rotating seed-plate "or ring 36 into the discharge chute 48 of the boot 21.

The seed-plate or ring 36 is driven by a beveled gear 49that is rotatably moiinted upon an upwardly-projecting boss 50 on the support 22,'thc gear being held in place thereon by .a bolt 51. This gear is provided with a pair of diametrically arranged up- Wardly extending pms or lugs 52 which are arranged to engage two of the openings in the drive-plat 33, so that the plate 33 rotates with the gear and in turn drives the seed-plate or ring 36.11; loosening the thumb-nut 417, the seed-can may be swung back upon the pivot bolt 26, as shown in Fig. 3. The retainer ring'39 can then be removed and the plate readily changed if desired. The lugs 52 are of such height that the seed-can cannot be fully returned to its normal, operative position unless the lugs properly register with two of the ope11- ings 53' in the plate so that the seed-plate is always in proper timed relation to its driving gearing.

The discharge chute 48 of the boot 21 is provided at its lower end with a pivoteddischarge valve 54 and at its upper end with a pivoted check valve When the planter is used for check-row or hill plant- -ing, a spring 56 normally holds the discharge valve 54 in position to close the lower end 01": the chute l8 and a spring 57 normally holds the check valve against a reciprocating plunger 58 arranged within the chute -il8. As the seeds forming one hill are accumulated upon the check valve 55,

and opens it so that the hill of corn ac-' cumulated thereon drops onto the discharge valve. The plunger 53 is thus reciprocated by a crank arm 60 on the check-row rockshaft 61. This arm is provided with an offset pin which extends through a segmental slot 62 in the boot 21 and engages the upper end of the plunger 58. The check row'rock-shafthl is journaled in the cross-pieces l9 and 20 of ,the front runner -frame and carries forks 63 upon its ends which are arranged to be engaged by the knots on the check-row wire. As usual, a spring 6el (see Figs. 1, st and 7) is connected to an arm 65 on the check-row rock-shaft and to the rear bar 18 of the front frame so as to hold the rocloshaft and parts connected thereto in the normal position illustrated in the drawings. The shaft 61' may also be rocked by a foot-lever (56 mounted upon the cross-bar 12 of the main franie and connected to an arm 67 on the rock-shaft by a link 68. For drill planting, the valves and are held open, so that the seeds delivered by the plate drop directly through the chute 48 into the furrow. The valves -are held open by a pair of pins 69 upon a disk 70 pivoted to the side face of the boot -21. These pins extend through segmental slots in the sides of the boot and engage the valve and the plunger 58 to hold the valves open, as shown in Fig. By shifting this plate from the position shown in Fig. 2, the springs 57 and 56 willlreturn the valves 54 and 55 to closed position for check-row planting.

To the lower end off eachboot is secured the rear end of a furrmv-opening shoe 71.

The Forward end of the shoe is connected by a brace 72 to the front bar 13 of the front frame of the planter.

The seed platcs of both the seed mechanisms are driven from a. transverse shaft 73 that is journaled at its ends in bearings 74 (see Fig. 3) formed In the supports 22.

At each end, the shaft 73 is provided with gitudimlly extending counter shaft 76 that is connected at its end by two sets of beveled gears to the wheel axle and to the transverse shaft respectively. Que set of beveled gears is inclosed in the casing 16 and the otherin the casing 77. The gee r casing 16 is formed of two circular sections coimected together at their edges by bolts 781' The wheel axle 1 1 extends through hotli sections of the gear.

casings and the inner section is provided with a bearing 79 therefor. The other section of the gear casing 11? is provided 'with a hearing 80 within which a reduced portion of a gear hub 81 rotatahly fits and this sec tion of the gear casing is rigidly secured by bolts 82 to the adjacent side-bar 10 of the main frame.

111 the form of theinvention shown in Figs. 1. to 5, the transverse shaft 73 is square in section and is provided with bearing sleeves 83 and 84- held in place thereon by pins 85. The bearing sleeve 83 (see Fig. 1) rotateoly engages suitable hearings in one of the cross pieces of the front frame and in a short piece 86 that is securely bolted to the forward end oi one of the sidebars 10 ct the main. frame. The other bearing sleeve (see Fig. 5) rotatabl v engages a hearing 8? in one end of the gear casing 77. This casing is divided into two semi-circular sections and the hearing 8? thereon is in turn jourualed in a hearing 88 in the adjacent cross piece or bracket. 20. The opposite and of the gear casing is provided with a hear-lug 89 for the reduced-portion of a gear hub 90. The longitudinally extending countor shaft '16 is journaled at its ends in the gear casings-16 and T7 and the Construction permits of the pivotal movement ofthese gear casings upon the wheel axle '14: and transverse shaft 73 respectively. Moreover, the gear casiiig '8'. and the short piece 81 are securely bolted respectively to the forward ends of the side-liars 10 of the main fra me, so that the pivoted points of connection between the main frame and the front frame and the axis of the transverse shaft 73. are

coincident. This construction permits the proper shift of the main and front frames tomove the seeding mechanism to and from Working position Without cramping the counter shaft 76 or the beveled gears connected thereto. The counter shaft 76 is provided with tw n oi beveled pinions. ohe at each end. {One set comprises the pinions 91. 92 and 93 at the rear coal of the shaft in the form shohvn in l igs. 1 to 5 and the other set com arises the beveled piuions 9 1 and'fifmj the orward end of the shaft. The set oil-beveled pinionsi 91, 92 and 93 are ar' ranged within the g *r casing 113 and the hair-s off the end Piillnllr-i 1 and 93 are providrol with lQIlIlH-(l extensions journaled in hearing ill: and 9'! formed in the gear cas og. Zhe hubs of the protons 91 read 92 are of the adjacent pinions 92 and 93. construction yrovidcs an increased length of each provided with an extension 98 which seats within a recess or hearing m the hub This ends with key-wars 100 within which are arranged a vpair of shiftable keys 101 and 102. The ends of these keys are provided with a projecting lug 103 which is arranged to engage key-ways 104- formed in thehubs of the minions. By shifting the keys loiigitudinally. any one of the set of pinioris 9.1,, 92 and can be locked to tho counter shaftnnd either one of the set of pinions S iced 95 can be locked to the counter shaft. As

shown in each set of pinions, there iscal annular space 105 between the keyways-of the different 'pinions; that is to say, thehuhs of the pinions 92 and 93 are provided with such annular recesses or spaces and thehulo of the pinion 94, is .-=imilarl v provided with an annular space. These annular spaces are slightly greater in width than the lugs 103' upon the keys 101 and 102. so that these lugs are eiitircly disengaged from one pinion before they can engage a key-way oi the next adjacent pinion. It is thus impossible to look more than one of each of the two sets of pimons to the counter shaft, and the keys may be shifted without danger of breakage Wllllfilllfi drive mechanism is in operation. .lrefirrzilily. the lugs 103 upon the keys are provided with beveled ends (ace Fig. 6) to facilitate, their engagement with the key-ways 104 of the piuions. As shown in Fig. 5, all of the pinions of both are provided with four key-ways any one of which may be engaged by the lug 103 of the corresponding key.

Shifters are provided for the keys 101 and 102 in theform of collars 106 and 107 which surround the counter shaft 76. and

each of which is engaged by a pair of lugs 108 upon the outer end of the corresponding he The collar 106 is provided with a slot 109 which is an aged by pics 11 0 u on the forked and o a shift lever 111.

his lever is connected by a. pivot bolt 112 to an am 113 that is formed on and projects from the gear casing 16. The upper end or the shift lever 111 is provided with a recess Within which'is arranged a longitudihally movable dog or latch 114 that is roridcd with an eye 115 at its upper end.

his dog is arranged to engage any one of ice did

a so

his

- a series of three notches 116 formed is. e

segment 117 on the arm 113. A cross-pin 11.8 extends through the inner end of the dog or latch 114: and through a slotflllljn the side of the shif" lever 111. This pin holds the dog'or latch 11 1 against twisting but permits its longitudinal movement into and out of engagement with the notches 116. A spring 120 coiled about the dog or latch extends between a shoulder 121 upon. the outer end of the shift lever 111 and. the cross pin 118 and normally presses the deg or latch inwardly and holds it in engagement with one of the notches 116. In normal position, the pin 111 engages a shoulder 122 on the shift lever 111 and limits the inward movement of the dog or latch. The eye 115 upon the upper end of the dog or latch is within easy reach of the operator I upon the machine and by grasping it he can withdrew the dog or latch and then shift the lever 11]. to engage the lug 103 upon the key 101 with any one of the three pinions 91, 92 or 93. The movement of this shift lever and of the-key is limited by lugs 128 upon the ends of the segment 11?. The shifting collar 107 in the form shown in Figs. 1 to 5 inclusive, is provided with a set screw 124-. which is arranged to engage either one of two recesses 1:25 in the side of the counter shaft 76 and thus locks the key 102 in position with its projection 103 engaging a key-way in either of the pinions 9 1 or 95.

The set of pinions 91, 9'2 and 93 mesh with a set of gears 1.26, 127 and 128 of diliferent sizes. 'liese gears are preferably formed in one piece and form asingle rnultiple-faced gear on the hub 81 through which the wheel axle 14; extends. T he set of pinions ill and mesh with two gears 129 and 130, which are preternblv formed in one piece, curl form a multiple-faced gear upon the hub '90 through which the transverse shaft 71 extends. When the seeding mccliul'iisnis are in lowered, working po' sition, the gear hub 81 is connected to the wheel axle 14 by a ratchet-toothed vclutch sleeve 1.31 which is keyed to the wheel axle bv a cross 3111 131 but is shittoble lon itu diuallv thereon. A. spring 132 coiled about the wheel axle, extends between a crosspinand the clutch sleeve Jill and normally tends to hold it in engagement with the end of the gear hub 81. clutch sl fter 134 is rotetablv mounted upon the end of the gear hub 81 and upon the bearing 80 of the gear casing l l uncl connected by 1 link 135 to :1 lug 136 on the rear bar 17 of the front frame. The clutch shifter is provided with one or more com notches 187 on its inner edge which cooperate with projecting lugs 1138 upon the adjacent side face of the gear casing 16. When the forward end of the main frame and the front runner frame are raised. to lift the seeding mechenism from worlriugpcsition, the clutch shifter 13-11; is rocked by the connecting link 1135 and the earns 1.37 ride up upon the lugs 138 and force the clutch sleeve 131 outwardly against the pressure of the spring to disengage the teeth of the clutch sleeve from the ratchet teeth in the gear hub 81. When the parts are restored to the working position illustrated inthe drew ing, the spring-132 automatically restores the clutch sleeve to the position shown to connect the gear hub 81 to the wheel axle. By shitting the keys 101 and 102, the two.

termeshin sets of beveled Wears are definitely proportioned in accordance with the size of the wheels and. the number of holes. in the seed-plate, so that the drive mechanism, when used for check-row planting will, at each ofits different adjusted POS1tl011S,ldV1IlC6 the seed-plate through delinite arcs each containing a definite number 'of seecl cells as the machine travels the predetermineddistance between rows. FORGE;

ice

ample: the form shown in Figs. 1 to 5 inelusive is adapted for use with a lii-fhol'e seed-plnte, wheels of thirty inches'in dienieter and with the standard distance, z'. e forty-two inches between rows. Infthis form, the beveled gears 33 which directly rotate the seed-plates are provided with twenty-four teeth and the beveled pinions75 on the shaft '73 are provided with eighteen teeth. The ratio between the counter 76 and transverse shaft 74- is, therefore, es

one to three when the gears l and in operationwith the kev' 102 in thoposi-- tion shown in Fig. 5 to loch" the {31111015. 94 to the transmission shaft. When the key is shifted to lock the pinion 95 to the tire-neev mission shaft, the ratio between this'fsheftand. the shaft 74' will be as two to three. When the planter is used for check-row or hill planting, the key 102 will always he in i the position shown in the drawings and 93 its provided with "twenty teeth.

1,118,982 v is lilo gears 9% and 129 in o erosion. The mm ihcl'efoi'e whcn the mac line is used for planting in hills between the counter shaft and Lhc seed-Milit as will be as four to lnthis form, all of the pinions 91,

o'hils' ills mics-moshing cows 12 127 and 128 are providcd respectrvcly w th twentythi'ce, thirty-four: and forty-s1 teeth. When.

vthe shift levc'fi 111 is set imposition with the dog ill in tlie'fi' ontnotch 116 of the sag mcnc i llflhs luglfifion the key IOE-Will ogigagc a key-Way or seat in' the beveled .omiou 91 look it to the counter shaft i6. The counter shzift will then. rotate through ouohol'f of a 'revolutionss the Ulfi' chine travels forwarclly for los fiy-two inches or .tiic disianlce hecwccn rows. The

i sceil plates will thsz'ofor e he rotated through jouc eighth of a rsvolut dzi the machinetravels between rows and will ach 2M3 cumulstc" two sol ds-in the dischiwgc chute" 01? she, corresponding boot between ifihooo 'ei 's'lions' of izhe valve" mechonism'therein effctoil log the knots onthc check-170w Wire;

Under such c'i msmms, lhercfom two semis will he piontecl inkoclijhill' next knot, and the seed-plates will be admnccd throiwh shteesixte'enths' of a revo lotion so that three sscdl"'Wil1 be, deposited at each hill. With the: shifilever 3:11 in position tooling-its clog or lotch 114; in the will be lockedto the counter shaft 76 21ml the seedplate will be advanced through one-fourth of. a revolution so that four ksrnols'will be'deposited 111 each. hill. In 1 H135; Way, the drive mechanism 1112,37 be sci;

j in any one of three positions to affect the planting outlier of two three or four kernels zho transmission. shaftromcs in a hill. The gaming mcchaixism is this so proporsioncd that, in each of'its d1i'lercnt adjustments, the seed plates will be rotzificcl in Fig. 2. "lock sithelpo'l pim ons ill-oi 95 to the When thcshift-levcr 111 is in position with its dog 114 engaging the center 11otcl1- 115,'shc key 10.; iill locl the beveled; pinion 92 to the multiple of one-fourth of a revolution as the machine travels between rows, so that by having four key seats 10% in the beveled "sion thercthrou'gh in assembling the parts of thsmachins For drill planting the chcclit-row mocha uism' is of course not' used and the valves of tholdischsrr s chute arc hci'i. o 2cm as shown .O' i i I The key 102 may than he used to countor' shall: 7Z6 slid 'lhckey 101 can be shifidto lock any ono of the sot of piuion's 92 01*93 to the couoter shoft. With the particular size" of gems vshowxu sees may then be ciriilcciwith :1sixtccn-ho'loplotsat 5, 7,110,191, blond-.20 inches apart. By changing the seed-pistes ljhe distances can of course be varied. I J v lt w ill be understood shot the sizes of the gears of the clrivo mechanism can he viiiicd: from those given without departures from the essentials of'iho' im'cutiou, bui; iloshiil planting; as stated izlzo. gemsing nust co definitely proportioned in seem-clan s with the size of the Wheels and thsnumbsr of seed. cells in tho-plots iu' oz 'cler that 'the proper n-umbcrjof .soodishall be accurately" deposited in the hills' llheu the drive machanisnvis thus definitelyproportioned, it is, not necessary to employ a clutch to effect llna'ihtermiiicnt opc'ration of the seed-pistes and the gcur connections ofthe drive mechanism an hc'entirsly i'nclosed 'withioprotsc ing casings and'is in no way Lispcndcn for i'lspz posaclicu upon springs, clutches or 110 Him. The use of a clutch is supposedto obviate t ho'inac'cui'ato planting seed in spite of um irregular rotation of the ground Wheels (l'ucio 'u'ncvcnncss'of the surface of the ground audio slimving of the wheels, but Whore the sccd iszi cuuiulziizcc; oii'e at :1

lime, by seed-plates having single-kernel calls any such variation in the movement of the ground Whecls can not make adifference of more than ouo'lier-uci in ally hill mid that only at very gnsai; intori ols.

tho form of the drive g carings shown in Figs. 7 22ml hills parts oresimilai' to those already set forizh except that the set of three bcx led piniousorc in'ranrgcrl on ihe forward end of ihoqcounter-shoit 76 and mesh with :1 triplcfacsol E2 on the trans-- verse shaft 73,", and ithe' sec oi two hovelotl pinions' mounte l upon the rem: end of tho counter shaft 76 and mesh .with a double faced gear upon the wheel axle. In this form, the pinions 91, 92 and 93' are each provided with tiventy'one teeth while the pinions 94' and 95' are each provided with tvvel ve teeth. The gears 'liltl' and 130 have respectively forty-eight and twenty-seven teeth while the gears 126, 127 and 128 have twenty-one, twenty-eight and forty-two teeth respectively. Both of the keys in this form are manipulated by shift levers 111 and 111 similar to the shift lever 111 previously described. The key 102 is always set in position to lock the pinion. 95' to the counter shaft 76 when the machine is used for ClRQCkrow or hill planting and'the shift lever 111 is moved to any one of its three positions to 'eifect the planting of two, three, or four kernels in a hill. In this form, With a sixteen-hole plate and thirty inch Wheels the transverse shaft 73' must be geared to the seed-plate in the ratio of four to one or, if desired, it may be geared to the seed-plate in the ratio of one to one and a four to one gearing interposed between the wheel axle 14 and the multiple faced gear that meshes with the pinions Ql and 95. In this form, the transverse shaft 73 is round in section. and is journaled directly in bearings 87 and 89 in the casing 77, so that the latter is thus swiveled on the shaft to move thereon when "the parts of the machine are shifted to and from working position. This shaft is also directly ournaled 1n bearlngs 88 in the transverse bracket 20 and the forward ends of the frame bars 10 are securely. bolted to the pieces 86 that rotatably engage reduced portions or projections of the bearings 88.

It is obvious that numerous changes may he made in the details set forth Without deiiarture'from the essentials of the invention.

I claim as my invention 1. In a check-row corn planter, the combination of a Wheeled. frame, a seed hopper on said frame having a. delivery chute, a valve mechanism in said chute, a seed plate in said hopper having single kernel cells for accumulating seed one at a time in said chute, a variable gear mechanism driven.

from a wheel of said frame and connected to said plate to continuously rotate the definite arcs each containing a definite numher of cells as the machine travels the predetermined distance between cross rows, such arcs and the number of cells contained therein being uniform in any one adjustment of said gear mechanism, but varying with the different adjustments thereof, anu said gear mechanism and said check-row devices being arranged to simultaneously and independently operate said seed plate and said valve mechanism in proper timed relation, substantially as described.

2. In a check-row corn planter, the. com bination of a Wheeled frame, a seed hopper thereon having a delivery chute,,a valve mechanism in said chute, aseed plate in said. hopper having single kernel cells for accumulating seed one at a time in said chute, variable gear mechanism driven from a Wheel of said frame and connected to said seed plate to continuously rotate the same,-.

a' controlling device, manually shiftable during the operation of the machine, for

adjusting said gear mechanism to vary the:

to continuously and variably rotate said. seed plate and intermittently and uniformly-- actuate said check-row devices in propertimed relation to deposit a definite number of seed in each hill in accordance with the adjustment of said gear mechanism, substantially as described.

EDWARD M. HEYLMAN.

Witnesses:

RACHEL C. PUaoELL, JOSEPH A. CRAIG. 

